SU355432A1 - MEMBRANE PRESSURE REGULATOR - Google Patents

Description

The invention relates to membrane pressure valves, designed to remotely control a compressed air supply to reversing air motors and automatically maintain its pressure at a given level, and can be used in systems for remote and automatic control of pneumatic drives of machines.

In the known membrane regulators, the discharge channel has a small cross section. Such an embodiment of the regulator does not allow it to be remotely controlled and to stabilize the pressure at the inlet to the reversible air motors of the gear type. An increase in the working stroke of the rigid center of the membranes increases the errors of conversion and pressure stabilization, reduces the service life of the membranes and requires an increase in their diameter. An increase in the flow area of the discharge chamber to the value of the flow section of the regulator corresponding to the diameter of its conditional passage entails an approximately twofold increase in the working stroke of the hard center of the membrane unit.

In the proposed membrane pressure regulator with a remote control for expanding its fuctional and spallable abilities, the closure organ is shaped like a tube section connecting the submembrane chamber with the atmosphere, which allows the regulator to be single-membrane and provide a subcontracted vein section of the discharge section of the discharge cage .

The drawing shows a diagram of the described controller.

The membrane regulator contains the housing /, inlet 2 and outlet 3 valves of the compressed air supply, channel 4 unloading the submembrane chamber into the atmosphere, channel 5 supplying the control, its signal to the supermembrane chamber. The groundwork of Cornus is set by a sliding seat, unloaded from the impact of the pressure of its air. The bottom saddle 6 is compacted on the partition wall of Cornus 7 with a force of an ireactually compressed spring 8. Membrane 9 divides the internal cavity in the regulator housing into two chambers, and the rigid center 10 of this membrane is rigidly connected to the clanaplane. Before supplying the control signal to the supermembrane chamber, the compressed air supplied through channel 2 cannot pass into ka 1al 3, since the movable saddle 6 is compacted on the partition wall of the housing 7. After the control is fed through ka.nal 5, the hard center 10 doesn’t force on the valve //, which first closes the n, seals the discharge channel 4, and then the force on the movable seat is intact. The latter is displaced, overcoming the force of the spring 8, p opens up the passage of compressed air from channel 2 to channel 5 through the submembrane chamber. When the pressure in the submembrane chamber becomes equal to the pressure in the supramembrane chamber, the 1PO wall of the housing 7 is sealed behind the porous organ and the air inlet 3 from channel 2 stops. If the pressure in the submembrane chamber exceeds the pressure in the supermembrane chamber, the valve // opens dripped 4, and the pressurized air is released into the atmosphere. If, in the absence of a pressure signal in the supramembrane chamber, the air flow is reversed, i.e., air is supplied through channel 3 to the submembrane chamber, then excess pressure to the membrane 9 will open the valve //, and the compressed air will be released to the atmosphere through channel 4.

Subject invention

A diaphragm pressure regulator with a distopzio P1il1 control, comprising a housing with a cavity inside the chamber divided into control and feedback chambers, as well as a movable seat with an axial channel, characterized in that, in order to expand the functional possibilities of the device, the feedback chamber is connected with the release into the atmosphere of the canal M, performed in a mobile seat.

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